Magnetic generation of normal pseudo-spin polarization in disordered graphene

Abstract Spin to pseudo-spin conversion by which the non-equilibrium normal sublattice pseudo-spin polarization could be achieved by magnetic field has been proposed in graphene. Calculations have been performed within the Kubo approach for both pure and disordered graphene including vertex correcti...

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Main Authors: R. Baghran, M. M. Tehranchi, A. Phirouznia
Format: Article
Language:English
Published: Nature Publishing Group 2021-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-94218-0
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spelling doaj-f99cfad2bbc34bd88716aea649149ce62021-07-25T11:27:18ZengNature Publishing GroupScientific Reports2045-23222021-07-011111810.1038/s41598-021-94218-0Magnetic generation of normal pseudo-spin polarization in disordered grapheneR. Baghran0M. M. Tehranchi1A. Phirouznia2Department of Physics, Shahid Beheshti UniversityDepartment of Physics, Shahid Beheshti UniversityDepartment of Physics, Azarbaijan Shahid Madani UniversityAbstract Spin to pseudo-spin conversion by which the non-equilibrium normal sublattice pseudo-spin polarization could be achieved by magnetic field has been proposed in graphene. Calculations have been performed within the Kubo approach for both pure and disordered graphene including vertex corrections of impurities. Results indicate that the normal magnetic field $$B_z$$ B z produces pseudo-spin polarization in graphene regardless of whether the contribution of vertex corrections has been taken into account or not. This is because of non-vanishing correlation between the $$\sigma _z$$ σ z and $$\tau _z$$ τ z provided by the co-existence of extrinsic Rashba and intrinsic spin–orbit interactions which combines normal spin and pseudo-spin. For the case of pure graphene, valley-symmetric spin to pseudo-spin response function is obtained. Meanwhile, by taking into account the vertex corrections of impurities the obtained response function is weakened by several orders of magnitude with non-identical contributions of different valleys. This valley-asymmetry originates from the inversion symmetry breaking generated by the scattering matrix. Finally, spin to pseudo-spin conversion in graphene could be realized as a practical technique for both generation and manipulation of normal sublattice pseudo-spin polarization by an accessible magnetic field in a easy way. This novel proposed effect not only offers the opportunity to selective manipulation of carrier densities on different sublattice but also could be employed in data transfer technology. The normal pseudo-spin polarization which manifests it self as electron population imbalance of different sublattices can be detected by optical spectroscopy measurements.https://doi.org/10.1038/s41598-021-94218-0
collection DOAJ
language English
format Article
sources DOAJ
author R. Baghran
M. M. Tehranchi
A. Phirouznia
spellingShingle R. Baghran
M. M. Tehranchi
A. Phirouznia
Magnetic generation of normal pseudo-spin polarization in disordered graphene
Scientific Reports
author_facet R. Baghran
M. M. Tehranchi
A. Phirouznia
author_sort R. Baghran
title Magnetic generation of normal pseudo-spin polarization in disordered graphene
title_short Magnetic generation of normal pseudo-spin polarization in disordered graphene
title_full Magnetic generation of normal pseudo-spin polarization in disordered graphene
title_fullStr Magnetic generation of normal pseudo-spin polarization in disordered graphene
title_full_unstemmed Magnetic generation of normal pseudo-spin polarization in disordered graphene
title_sort magnetic generation of normal pseudo-spin polarization in disordered graphene
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-07-01
description Abstract Spin to pseudo-spin conversion by which the non-equilibrium normal sublattice pseudo-spin polarization could be achieved by magnetic field has been proposed in graphene. Calculations have been performed within the Kubo approach for both pure and disordered graphene including vertex corrections of impurities. Results indicate that the normal magnetic field $$B_z$$ B z produces pseudo-spin polarization in graphene regardless of whether the contribution of vertex corrections has been taken into account or not. This is because of non-vanishing correlation between the $$\sigma _z$$ σ z and $$\tau _z$$ τ z provided by the co-existence of extrinsic Rashba and intrinsic spin–orbit interactions which combines normal spin and pseudo-spin. For the case of pure graphene, valley-symmetric spin to pseudo-spin response function is obtained. Meanwhile, by taking into account the vertex corrections of impurities the obtained response function is weakened by several orders of magnitude with non-identical contributions of different valleys. This valley-asymmetry originates from the inversion symmetry breaking generated by the scattering matrix. Finally, spin to pseudo-spin conversion in graphene could be realized as a practical technique for both generation and manipulation of normal sublattice pseudo-spin polarization by an accessible magnetic field in a easy way. This novel proposed effect not only offers the opportunity to selective manipulation of carrier densities on different sublattice but also could be employed in data transfer technology. The normal pseudo-spin polarization which manifests it self as electron population imbalance of different sublattices can be detected by optical spectroscopy measurements.
url https://doi.org/10.1038/s41598-021-94218-0
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